Department of Psychology, Emory University, Atlanta, USA.
Department of Psychiatry, University of Iowa, Iowa City, USA.
Mol Autism. 2021 Jun 9;12(1):43. doi: 10.1186/s13229-021-00450-w.
Neurodevelopmental disorders (NDDs) such as autism spectrum disorder (ASD) display a strong male bias. Androgen exposure is profoundly increased in typical male development, but it also varies within the sexes, and previous work has sought to connect morphological proxies of androgen exposure, including digit ratio and facial morphology, to neurodevelopmental outcomes. The results of these studies have been mixed, and the relationships between androgen exposure and behavior remain unclear.
Here, we measured both digit ratio masculinity (DRM) and facial landmark masculinity (FLM) in the same neurodevelopmental cohort (N = 763) and compared these proxies of androgen exposure to clinical and parent-reported features as well as polygenic risk scores.
We found that FLM was significantly associated with NDD diagnosis (ASD, ADHD, ID; all [Formula: see text]), while DRM was not. When testing for association with parent-reported problems, we found that both FLM and DRM were positively associated with concerns about social behavior ([Formula: see text], [Formula: see text]; [Formula: see text], [Formula: see text], respectively). Furthermore, we found evidence via polygenic risk scores (PRS) that DRM indexes masculinity via testosterone levels ([Formula: see text], [Formula: see text]), while FLM indexes masculinity through a negative relationship with sex hormone binding globulin (SHBG) levels ([Formula: see text], [Formula: see text]). Finally, using the SPARK cohort (N = 9419) we replicated the observed relationship between polygenic estimates of testosterone, SHBG, and social functioning ([Formula: see text], [Formula: see text], and [Formula: see text], [Formula: see text] for testosterone and SHBG, respectively). Remarkably, when considered over the extremes of each variable, these quantitative sex effects on social functioning were comparable to the effect of binary sex itself (binary male: [Formula: see text]; testosterone: [Formula: see text] from 0.1%-ile to 99.9%-ile; SHBG: [Formula: see text] from 0.1%-ile to 99.9%-ile).
In the devGenes and SPARK cohorts, our analyses rely on indirect, rather than direct measurement of androgens and related molecules.
These findings and their replication in the large SPARK cohort lend support to the hypothesis that increasing net androgen exposure diminishes capacity for social functioning in both males and females.
神经发育障碍(NDD),如自闭症谱系障碍(ASD),表现出强烈的男性偏向。雄激素暴露在典型的男性发育中明显增加,但在性别之间也存在差异,先前的研究试图将雄激素暴露的形态学指标,包括数字比和面部形态,与神经发育结果联系起来。这些研究的结果喜忧参半,雄激素暴露与行为之间的关系仍不清楚。
在这里,我们在同一个神经发育队列(N=763)中测量了数字比雄性度(DRM)和面部标志雄性度(FLM),并将这些雄激素暴露的指标与临床和家长报告的特征以及多基因风险评分进行了比较。
我们发现,FLM 与 NDD 诊断(ASD、ADHD、ID;全部[公式:见文本])显著相关,而 DRM 则没有。当我们测试与家长报告的问题的关联时,我们发现 FLM 和 DRM 都与社交行为的担忧呈正相关([公式:见文本],[公式:见文本];[公式:见文本],[公式:见文本],分别)。此外,我们通过多基因风险评分(PRS)发现,DRM 通过睾丸激素水平来指示雄性度([公式:见文本],[公式:见文本]),而 FLM 通过与性激素结合球蛋白(SHBG)水平的负相关来指示雄性度([公式:见文本],[公式:见文本])。最后,我们使用 SPARK 队列(N=9419)复制了多基因估计的睾丸激素、SHBG 与社交功能之间的观察到的关系([公式:见文本],[公式:见文本],以及[公式:见文本],[公式:见文本]分别为睾丸激素和 SHBG)。值得注意的是,当考虑到每个变量的极端情况时,这些关于社会功能的定量性别效应与二元性别本身的效应相当(二元性别男性:[公式:见文本];睾丸激素:从 0.1%到 99.9%分位数[公式:见文本];SHBG:从 0.1%到 99.9%分位数[公式:见文本])。
在 devGenes 和 SPARK 队列中,我们的分析依赖于雄激素和相关分子的间接而非直接测量。
这些发现及其在大型 SPARK 队列中的复制支持了这样的假设,即增加净雄激素暴露会降低男性和女性的社交功能能力。
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